#include "excellon_writer.hpp"
#include <iomanip>
#include "util/util.hpp"

namespace horizon {

ExcellonWriter::ExcellonWriter(const std::string &filename)
    : ofs(make_ofstream(filename, std::ios_base::out | std::ios_base::binary)), out_filename(filename)
{
    ofs.imbue(std::locale::classic());
    check_open();
}

const std::string &ExcellonWriter::get_filename()
{
    return out_filename;
}

void ExcellonWriter::write_line(const std::string &s)
{
    check_open();
    ofs << s << "\r\n";
}

void ExcellonWriter::check_open()
{
    if (!ofs.is_open()) {
        throw std::runtime_error("not opened");
    }
}

void ExcellonWriter::close()
{
    write_line("M30");
    ofs.close();
}

void ExcellonWriter::write_format()
{
    write_line("M48");
    write_line("FMAT,2");
    write_line("METRIC,TZ");
}

void ExcellonWriter::write_header()
{
    ofs.precision(3);
    for (const auto &it : tools) {
        ofs << "T" << it.second << "C" << std::fixed << (double)it.first / 1e6 << "\r\n";
    }
    write_line("%");
    write_line("G90");
    write_line("G05");
    write_line("M71");
}

unsigned int ExcellonWriter::get_tool_for_diameter(uint64_t diameter)
{
    unsigned int tool;
    if (tools.count(diameter)) {
        tool = tools.at(diameter);
    }
    else {
        tool = tool_n++;
        tools.emplace(diameter, tool);
    }
    return tool;
}

void ExcellonWriter::draw_hole(const Coordi &pos, uint64_t diameter)
{
    unsigned int tool = get_tool_for_diameter(diameter);
    holes.emplace_back(pos, tool);
}

void ExcellonWriter::draw_slot(const Coordi &pos, uint64_t diameter, uint64_t length, int angle)
{
    unsigned int tool = get_tool_for_diameter(diameter);
    double d = std::max(((int64_t)length - (int64_t)diameter) / 2, (int64_t)0);
    double phi = (angle / 65536.0) * 2 * M_PI;
    double dx = d * cos(phi);
    double dy = d * sin(phi);

    Coordi p0(pos.x - dx, pos.y - dy);
    Coordi p1(pos.x + dx, pos.y + dy);
    slots.emplace_back(p0, p1, tool);
}

void ExcellonWriter::write_holes()
{
    ofs.precision(3);
    for (const auto &itt : tools) {
        auto tool = itt.second;
        ofs << "T" << tool << "\r\n";
        for (const auto &it : holes) {
            if (it.second == tool)
                ofs << "X" << std::fixed << (double)it.first.x / 1e6 << "Y" << std::fixed << (double)it.first.y / 1e6
                    << "\r\n";
        }
        for (const auto &it : slots) {
            Coordi p0;
            Coordi p1;
            unsigned int this_tool;
            std::tie(p0, p1, this_tool) = it;
            if (this_tool == tool)
                ofs << "X" << std::fixed << (double)p0.x / 1e6 << "Y" << std::fixed << (double)p0.y / 1e6 << "G85"
                    << "X" << std::fixed << (double)p1.x / 1e6 << "Y" << std::fixed << (double)p1.y / 1e6 << "\r\n";
        }
    }
}
} // namespace horizon
